Usability Requirements for Complex Cyber-Physical Systems in a Totally Networked World

被引:0
作者
Koelmel, Bernhard [1 ]
Bulander, Rebecca [1 ]
Dittmann, Uwe [1 ]
Schaetter, Alfred [1 ]
Wuertz, Guenther [2 ]
机构
[1] Hsch Pforzheim Univ, D-75175 Pforzheim, Germany
[2] Steinbeis Univ Berlin, D-10247 Berlin, Germany
来源
COLLABORATIVE SYSTEMS FOR SMART NETWORKED ENVIRONMENTS | 2014年 / 434卷
关键词
Cyber-physical systems; Usability; a best practice process model;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
"The Internet has made the world "flat" by transcending space. [ ... ] The Internet has transformed how we conduct research, studies, business, services, and entertainment." [1] Cyber-physical systems (CPS) are engineered systems that are built from, and depend upon, the seamless integration of computational algorithms and physical components. Advances in CPS will enable capability, adaptability, scalability, resiliency, safety, security, and usability that will far exceed the embedded systems of today. CPS technology will transform the way people interact with engineered systems. "CPS have a highly disruptive effect on market structures. They will fundamentally change business models and the competitive field of today [ ... ]" [2] Usability is a driving force for the rapid take-up and acceptance of these Cyber-physical systems. [2] In this paper we define CPS and highlight the importance of usability for CPS. Then we describe two different cases and provide different methods how to improve the usability of CPS.
引用
收藏
页码:253 / 258
页数:6
相关论文
共 50 条
[21]   Requirements Engineering for Cyber-Physical Systems Challenges in the Context of "Industrie 4.0" [J].
Wiesner, Stefan ;
Gorldt, Christian ;
Soeken, Mathias ;
Thoben, Klaus-Dieter ;
Drechsler, Rolf .
ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: INNOVATIVE AND KNOWLEDGE-BASED PRODUCTION MANAGEMENT IN A GLOBAL-LOCAL WORLD, PT 1, 2014, 438 :281-+
[22]   The Cyber-Physical Systems Revolution [J].
Serpanos, Dimitrios .
COMPUTER, 2018, 51 (03) :70-73
[23]   Communication in Cyber-Physical Systems [J].
Mois, George ;
Folea, Silviu ;
Sanislav, Teodora ;
Miclea, Liviu .
2015 19TH INTERNATIONAL CONFERENCE ON SYSTEM THEORY, CONTROL AND COMPUTING (ICSTCC), 2015, :303-307
[24]   Cyber-Physical Manufacturing Systems [J].
Tilbury, Dawn M. .
ANNUAL REVIEW OF CONTROL, ROBOTICS, AND AUTONOMOUS SYSTEMS, VOL 2, 2019, 2 :427-443
[25]   Engineering Cyber-Physical Systems [J].
Gruhn, Volker ;
Gries, Stefan ;
Hesenius, Marc ;
Ollesch, Julius ;
Ur Rehman, Shafiq ;
Schwenzfeier, Nils ;
Wahl, Christian ;
Wessling, Florian .
NEW TRENDS IN INTELLIGENT SOFTWARE METHODOLOGIES, TOOLS AND TECHNIQUES, 2017, 297 :3-18
[26]   Cyber-physical systems in manufacturing [J].
Monostori, L. ;
Kadar, B. ;
Bauernhansl, T. ;
Kondoh, S. ;
Kumara, S. ;
Reinhart, G. ;
Sauer, O. ;
Schuh, G. ;
Sihn, W. ;
Ueda, K. .
CIRP ANNALS-MANUFACTURING TECHNOLOGY, 2016, 65 (02) :621-641
[27]   A metamodel for cyber-physical systems [J].
Fitz, Theresa ;
Theiler, Michael ;
Smarsly, Kay .
ADVANCED ENGINEERING INFORMATICS, 2019, 41
[28]   Quantum Strategic Organizational Design: Alignment in Industry 4.0 Complex-Networked Cyber-Physical Lean Management Systems [J].
Villalba-Diez, Javier ;
Zheng, Xiaochen .
SENSORS, 2020, 20 (20) :1-22
[29]   Distributed fault detection and isolation in second order networked systems in a cyber-physical environment [J].
Khan, Aadil Sarwar ;
Khan, Abdul Qayyum ;
Iqbal, Naeem ;
Sarwar, Muhammad ;
Mahmood, Atif ;
Shoaib, M. Asim .
ISA TRANSACTIONS, 2020, 103 :131-142
[30]   TORUS: Scalable Requirements Traceability for Large-Scale Cyber-Physical Systems [J].
Sinha, Roopak ;
Dowdeswell, Barry ;
Zhabelova, Gulnara ;
Vyatkin, Valeriy .
ACM TRANSACTIONS ON CYBER-PHYSICAL SYSTEMS, 2019, 3 (02)
12345